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Integration of DFDs Into a UML-Based Model-Driven Engineering Approach
João M. Fernandes, Johan Lilius, Dragos Truscan, Integration of DFDs Into a UML-Based Model-Driven Engineering Approach. Software and Systems Modeling 5(4), 403–428, 2006.
Abstract:
The main aim of this article is to discuss how the functional and the object-oriented views can be inter-played to represent the various modeling perspectives of embedded systems. We discuss whether the object-oriented modeling paradigm, the predominant one to develop software at the present time, is also adequate for modeling embedded software and how it can be used with the functional paradigm. More specifically, we present how the main modeling tool of the traditional structured methods, data flow diagrams, can be integrated in an object-oriented development strategy based on the unified modeling language. The rationale behind the approach is that both views are important for modeling purposes in embedded systems environments, and thus a combined and integrated model is not only useful, but also fundamental for developing complex systems. The approach was integrated in a model-driven engineering process, where tool support for the models used was provided. In addition, model transformations have been specified and implemented to automate the process. We exemplify the approach with an IPv6 router case study.
BibTeX entry:
@ARTICLE{jFeLiTr06a,
title = {Integration of DFDs Into a UML-Based Model-Driven Engineering Approach},
author = {Fernandes, João M. and Lilius, Johan and Truscan, Dragos},
journal = {Software and Systems Modeling},
volume = {5},
number = {4},
publisher = {Springer Berlin / Heidelberg},
pages = {403–428},
year = {2006},
keywords = {MDA - UML - Data-flow Diagram - Model Transformation - Embedded Systems - Specification - Process Model - Activity Diagram - IPv6 router},
}
Belongs to TUCS Research Unit(s): Embedded Systems Laboratory (ESLAB)
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